KR100217717B1 - Optical cable - Google Patents

Abstract

The present invention relates to a processing optical cable in which a loose tube in which optical fibers are mounted in a slot of a non-conductive material having one or more grooves is arranged in a tensile line in another layer. It is to provide a processing optical cable that can prevent the damage of the optical fiber and the damage of the processing optical cable by mounting a loose tube in which the optical fiber is mounted using a slot installed in the center of the optical cable. The optical fiber for processing has a slot of a non-conductive material for protecting a loose tube on which a plurality of optical fibers are mounted, and a slot of at least one non-conductive material for forming the loose tube is formed at both sides of the slot. The outer layer of the slot is provided with a plurality of rod-shaped tension line to prevent the optical cable from being damaged by the external mechanical influence, the outer side of the tension line formed of polyethylene or nylon or plastic material to protect the components It is covered with an outer sheath.

Description

Fiber optic cable.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical cable, and more particularly, to an optical fiber for processing in which a loose tube in which an optical fiber is mounted is mounted in a slot of a non-conductive material having one or more grooves, and a tensile line is arranged in another layer.

Usually, the optical fiber for processing to be fixed to the steel tower or pole is to be excellent in mechanical properties, and to have a structure that can withstand from the external environment (wind, snow, lightning, etc.). In addition, the processing optical cable is fixed to the lower portion of the steel tower or poles in which the power line is installed by the clamp.

Accordingly, in the related art, a cross-sectional view showing a configuration of an optical fiber for processing as shown in FIG. 1 is provided with a central tensile line 40 serving as a centerline and supporting the optical cable on a central axis. On the outside of the 40, a plurality of loose tubes 44 on which one or more optical fibers 42 coated with plastic and jelly are mounted are provided along the circumferential surface. In the outer space of each of the loose tubes 44 is filled with a filler 46 for fixing the loose tubes 44.

In addition, the outer peripheral tape 48 is wound around the outer surface of the plurality of loose tubes 44 to prevent moisture from penetrating from the outside, and the outer tube of the outer tube 48 has the loose tube 44. In order to protect it from the external environment, it is first coated with a first envelope 50 formed of polyethylene material.

Tension lines 52 are installed around the outer surface of the first sheath 50 to prevent the optical cable from being damaged due to external environment such as wind or snow and external mechanical influences. The outer layer of the tensile line 52 is secondary coated with a second shell 54 formed of polyethylene material to protect the respective components from the external environment.

The conventional optical fiber for processing as described above has a small frictional force generated between the tensile line and the primary outer sheath and the secondary outer sheath, so that the optical cable has a large force due to external environmental or mechanical influences. When the wire is subjected to the sliding, the sliding occurs between the sheath and each of the sheaths, which causes the optical cable to break. In addition, since the tensile wire is coated with polyethylene, the mechanical strength decreases as the outside temperature increases. As a result, the bonding force of the clamp used to fix the optical cable to the steel tower or pole is reduced, so that the processing optical cable is separated from the steel tower or pole.

In order to solve the above problems, an object of the present invention is to mount a loose tube in which the optical fiber is mounted using a slot installed in the center of the optical cable, so that the optical fiber for processing can prevent damage of the optical fiber and damage of the optical fiber for processing. To provide.

Another object of the present invention is to provide an optical fiber for processing that can be installed in the optical cable in the form of a plurality of rods (rod) to prevent the sliding of the tension line and the sheath.

Still another object of the present invention is to provide an optical fiber for processing that can enhance the connection force of the clap when the optical fiber for processing is fixed to a steel tower or pole.

In order to achieve the above object, the present invention is characterized in that the optical fiber for processing is installed in the form of a plurality of rods of non-conductive material with strong tensile strength in the other layer centered on the slot of the non-conductive material for protecting the optical fiber. It is done.

In order to achieve the above object, the present invention provides an optical fiber for processing, wherein a slot of a non-conductive material for protecting a loose tube on which a plurality of optical fibers are mounted is installed at a central portion thereof, and at least both sides of the slot for mounting the loose tube are mounted. One or more grooves of non-conductive material are formed, and the outer layer of the slot is wound with a tape to prevent moisture penetration from the outside, and the outer side of the tape prevents the optical cable from being damaged by external mechanical influences. A plurality of rod-shaped tension lines are installed, and the outer side of the tension line is characterized in that the coating is installed with a sheath formed of polyethylene or nylon or plastic to protect the components.

1 is a cross-sectional view showing the configuration of a processing optical cable according to an embodiment of the prior art.

Figure 2 is a cross-sectional view showing the configuration of the optical fiber for processing according to an embodiment of the present invention.

Figure 3 is a cross-sectional view showing the shape of a slot (non-conductive material) in the optical fiber for processing according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: slot 12: groove

14: loose tube 16: optical fiber

18: jelly 20: filler

22 tape 24 tension line

26: jacket

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

2 is a cross-sectional view showing the configuration of an optical fiber for processing according to an embodiment of the present invention. Figure 3 is a cross-sectional view showing the shape of the slot (non-conductive material) in the optical fiber for processing according to an embodiment of the present invention.

As shown in FIG. 2, the processing optical cable has a slot 10 formed of a non-conductive material for protecting the loose tube 14 mounted with one or more optical fibers 16 coated with acrylic coating in a central portion thereof. At this time, the inside of the loose tube 14 in which the optical fiber 16 is mounted is filled with a jelly 18 to prevent moisture from penetrating. In addition, the slot 10 is made of glass yarn or aramid yarn with sufficient mechanical strength so as not to be damaged by external impact.

As shown in FIG. 3, at least one groove 12 made of a non-conductive material having a constant pitch is formed on both sides of the slot 10 to mount the loose tube 14. At this time, the pitch of the groove 12 refers to a range in which the tensile force is not applied to the optical fiber 16 when the optical cable is tensioned by an external environment, that is, the margin ratio of the optical fiber 16 is 0.3 to 1.0% The pitch of the grooves 12 should be set as much as possible. In addition, a filler 20 is filled around the groove 12 of the slot 10 in which the lease tube 14 is mounted to fix the loose tube 14 so as not to flow.

The outer layer of the slot 10 may be applied to the tape 22 to prevent the penetration of moisture from the outside, the outer side of the tape 22 is a rod for preventing the optical cable from being damaged due to external mechanical influences A plurality of rods 24 of non-conductive material in the form of rods are regularly installed. At this time, the tension line 24 is a glass-yarn (glass yarn) or aramid- having a sufficient tensile force to prevent the optical cable from being damaged due to external mechanical influence or external environment such as wind, snow, temperature change It is made of a material such as aramid yarn.

In addition, the tension line 24 is formed in the shape of a circle, triangle, square, rhombus, etc. is installed on the outer surface of the slot 10 at a constant pitch (pitch), the slot so that no distortion occurs in the optical cable It is twisted and installed in the direction opposite to the direction of the groove | channel 12 formed in the 10. In addition, the outer layer of the tension line 24 is coated with an outer shell 26 formed of a plastic material such as polyethylene or nylon to protect each of the components from an external environment. It is done.

As described above, the processing optical cable according to the embodiment of the present invention is provided with a slot of a non-conductive material in the center of the optical cable, and a plurality of rod-shaped tension lines are installed on the outer layer of the slot, thereby providing the processing optical cable. The tensile strength of the optical cable can be prevented from being damaged due to external mechanical influence or external environment (wind, snow, temperature change, etc.), and the compressive strength of the optical cable is fixed by fixing the loose tube in the groove formed in the slot. It is possible to prevent damage to the optical fiber, and also because the slot and the tensile wire is made of a material such as glass yarn, aramid yarn, etc. There is an effect that can be prevented.

Claims (7)

In the processing optical cable, The optical cable is a processing optical cable, characterized in that there are a plurality of tension lines 24 of the non-conductive material having a strong tensile force in the outer layer around the slot 10 of the non-conductive material for protecting the optical fiber 16. . The optical cable for processing according to claim 1, wherein the slot (10) has at least one groove (12) formed at a constant pitch for fitting and coupling the loose tube (14) on which the optical fiber (16) is mounted. The optical cable for processing according to claim 1, wherein the slot (10) is made of glass-yarn or aramid-yarn having mechanical strength so as not to be damaged by external impact. The optical cable for processing according to claim 1, wherein the tensile lines (24) are twisted with each other in a direction opposite to the direction of the groove (12) formed in the slot (10). The optical cable for processing according to claim 1, wherein the tension line (24) is formed in a circle, triangle, rectangle, and rhombus shape and is installed on the outer surface of the slot (10) at a constant pitch. In the processing optical cable, The optical cable has a slot 10 made of a non-conductive material for protecting the loose tube 14 having a plurality of optical fibers 16 mounted thereon, and the loose tube 14 is provided at both sides of the slot 10. At least one groove 12 of non-conductive material is formed to be mounted, and an outer layer of the slot 10 has a rod-shaped tension line 24 which prevents the optical cable from being damaged by an external mechanical influence. A plurality of installation, the processing optical cable characterized in that the outer surface of the tension line 24 is installed by coating the outer cover (26) formed of a plastic material to protect the components. 7. The processing optical cable according to claim 6, wherein the loose tube (14) is filled with a filler (20) to fix the loose tube (14) around the groove (12) of the slot (10) on which it is mounted.